HM-TS600 Soil Moisture Monitoring Equipment Introduction: The Soil Moisture and Drought Information Management System aims at drought resistance and disaster reduction, with real-time moisture, agricultural conditions, water storage and diversion situation of water conservancy projects as data sources. It uses advanced soil moisture sensors and other advanced equipment, combined with suitable regional mathematical models, and relies on the Internet of Things monitoring platform to establish a decision support system that integrates real-time monitoring, information management, query services, and prediction analysis of soil moisture. It scientifically formulates drought resistance scheduling plans, provides decision support for correctly commanding drought resistance and disaster relief, and minimizes disaster losses. Widely used in meteorological and environmental monitoring, environmental protection, airports, industry, agriculture, forestry, tourism, geology, hydrology and water conservancy, military, warehousing, scientific research and other fields, as well as in places such as highways, airports, ship berths, and photovoltaic power generation. Features: 1. Real time monitoring of meteorological parameters such as wind speed, direction, air temperature, and humidity; 2. The meteorological data recorder has meteorological data collection, scheduled storage of meteorological data, parameter settings, parameters, and meteorological historical data 3. Reliable operation in various harsh outdoor environments, low power consumption, high stability, high accuracy, and unmanned operation; 4. It adopts a fully sprayed plastic bracket and a field protective box, which has a beautiful appearance, corrosion resistance, and anti-interference ability. The total height of the spray molded bracket is 3.5 meters, and the bracket is divided into three sections, which are detachable and easy to transport and carry; The recorder is designed with a sealed and waterproof concept, which can effectively protect the components inside the box from damage or short circuits. 5. Install lightning protection measures; 6. Both hardware and software adopt modular and open design, which can be flexibly combined and used; 7. Meteorological sensors can be selected and configured with different parameters as needed; 8. The software is powerful and can import data from the collector into the computer and store it as an Excel spreadsheet file for further data processing by other analysis software; 9. Flexible and diverse communication methods, 485 communication, and customizable GPRS remote communication or standard USB communication. Technical parameters: 1. Technical parameters of the main controller Data storage space: ≥ 100000 entries Recording interval: adjustable from 1 minute to 24 hours Data transmission: wireless transmission Working environment: -30 ℃~80 ℃ Power supply method: 220V mains power and solar power supply system are used simultaneously 2. Sensor technical parameters Air humidity: 0-100% Accuracy: ± 3% Resolution: 0.1% Lighting: -20~80 ℃ Accuracy: ± 2% Rainfall: -20~80 ℃ Rainbearing diameter: φ 200mm accuracy: ± 2% Resolution: 0.2mm Soil moisture: measurement accuracy: ± 3% Working temperature range: -20 ℃~50 ℃ Soil EC: measurement accuracy: ± 4% Soil EC measurement range: 0.2~12mS/cm Soil temperature: accuracy: ± 0.2 ℃ Measurement range: -40 ℃~120 ℃
Introduction: The Soil Moisture and Drought Information Management System aims at drought resistance and disaster reduction, with real-time moisture, agricultural conditions, water storage and diversion situation of water conservancy projects as data sources. It uses advanced soil moisture sensors and other advanced equipment, combined with suitable regional mathematical models, and relies on the Internet of Things monitoring platform to establish a decision support system that integrates real-time monitoring, information management, query services, and prediction analysis of soil moisture. It scientifically formulates drought resistance scheduling plans, provides decision support for correctly commanding drought resistance and disaster relief, and minimizes disaster losses. Widely used in meteorological and environmental monitoring, environmental protection, airports, industry, agriculture, forestry, tourism, geology, hydrology and water conservancy, military, warehousing, scientific research and other fields, as well as in places such as highways, airports, ship berths, and photovoltaic power generation.
